Modeling of the effective elastic and thermal properties of glass-ceramic solid oxide fuel cell seal materials

A full statistical analysis of the microstructure of glass-ceramic solid oxide fuel cell (SOFC) seal material, G18, is performed to calculate elastic properties. Predictions are made for samples aged for 4 h and 1000 h, giving different crystallinity levels. Microstructure of the glass-ceramic G18 i

For planar SOFCs the seal is a critical component, potential fracture in the seal needs to be investigated in order to enhance the reliability of the seal. A model based on the classical beam bending theory and the fracture theory of ceramic materials has been developed for predicting the crack exte

Successful seal design relies on good understanding of glass network structure and the corresponding impact on glass thermophysical properties. This study is focused on effects of nickel replacement of glass formers SiO 2 and B 2 O 3 and glass modifier SrO on SrO La 2 O 3 Al 2 O 3 B 2 O 3 SiO 2 glas

This paper describes the design and development of a composite seal for SOFC to produce a hermetic joint between the ceramic and metallic components of the SOFC stacks. The composite seal was designed to be chemical compatible with the ceramic electrolyte (YSZ) and the interconnect (AISI 430), to ha